Context Navigation

source: Sophya/trunk/SophyaPI/PIext/nomtmatvecadapter.cc@ 1321

Visit:

Last change on this file since 1321 was 1321, checked in by ercodmgr, 25 years ago
Adaptateur de TArray et lecture FITS - Reza 13/11/2000
File size: 10.1 KB

Line
1	#include "machdefs.h"
2	#include <stdlib.h>
3	#include <typeinfo>
4	#include <iostream.h>
5	#include <string>
6	#include <complex>
7
8	#include "datatype.h"
9
10	#include "tvector.h"
11	#include "objfitter.h"
12	#include "nomtmatvecadapter.h"
13	#include "piscdrawwdg.h"
14	#include "pitvmaad.h"
15
16	#include "fioarr.h"
17	#include "fitstarray.h"
18
19
20	//----------------------------------------------------------------
21	// Class Adaptateur d'objet (Pour NamedObjMgr) d'objet TMatrix<T>
22	//----------------------------------------------------------------
23
24
25	/* --Methode-- */
26	template <class T>
27	NOMAdapter_TMatrix<T>::NOMAdapter_TMatrix(TMatrix<T>* o)
28	: NObjMgrAdapter(o)
29	{
30	mMtx = o;
31	}
32
33	/* --Methode-- */
34	template <class T>
35	NOMAdapter_TMatrix<T>::~NOMAdapter_TMatrix()
36	{
37	}
38
39	/* --Methode-- */
40	template <class T>
41	NObjMgrAdapter* NOMAdapter_TMatrix<T>::Clone(AnyDataObj* o)
42	{
43	TMatrix<T>* m = dynamic_cast<TMatrix<T> *>(o);
44	if (m) return ( new NOMAdapter_TMatrix<T>(m) );
45	return ( new NObjMgrAdapter(o) );
46	}
47
48	/* --Methode-- */
49	template <class T>
50	string NOMAdapter_TMatrix<T>::GetDataObjType()
51	{
52	string type = "TMatrix< ";
53
54	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
55	if (v != NULL) type = "TVector< ";
56
57	// type += DecodeTypeIdName(typeid(T).name());
58	type += DataTypeInfo<T>::getTypeName();
59	type += " > ";
60	return(type);
61	}
62
63	/* --Methode-- */
64	template <class T>
65	AnyDataObj* NOMAdapter_TMatrix<T>::CloneDataObj(bool share)
66	{
67	if (mMtx == NULL) return(NULL);
68	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
69	if (v != NULL) return( new TVector<T>(*v, share) );
70	else return ( new TMatrix<T>(*mMtx, share) );
71	}
72
73	/* --Methode-- */
74	template <class T>
75	void NOMAdapter_TMatrix<T>::ReadFits(string const & flnm)
76	{
77	FitsInFile fis(flnm);
78	fis >> (*mMtx);
79	}
80
81	/* --Methode-- */
82	template <class T>
83	void NOMAdapter_TMatrix<T>::SaveFits(string const & flnm)
84	{
85	FitsOutFile fos(flnm);
86	fos << (*mMtx);
87	}
88	// ---- Specialisation pour complexes -----
89	void NOMAdapter_TMatrix< complex<r_4> >::ReadFits(string const & flnm)
90	{
91	cout << " NOMAdapter_TMatrix< complex<r_4> >::ReadFits() - Error "
92	<< " Not supported (complex data type)" << endl;
93	}
94	void NOMAdapter_TMatrix< complex<r_4> >::SaveFits(string const & flnm)
95	{
96	cout << " NOMAdapter_TMatrix< complex<r_4> >::SaveFits() - Error "
97	<< " Not supported (complex data type)" << endl;
98	}
99
100	void NOMAdapter_TMatrix< complex<r_8> >::ReadFits(string const & flnm)
101	{
102	cout << " NOMAdapter_TMatrix< complex<r_8> >::ReadFits() - Error "
103	<< " Not supported (complex data type)" << endl;
104	}
105	void NOMAdapter_TMatrix< complex<r_8> >::SaveFits(string const & flnm)
106	{
107	cout << " NOMAdapter_TMatrix< complex<r_8> >::SaveFits() - Error "
108	<< " Not supported (complex data type)" << endl;
109	}
110
111	/* --Methode-- */
112	template <class T>
113	void NOMAdapter_TMatrix<T>::SavePPF(POutPersist& pos, string const & nom)
114	{
115	if (mMtx == NULL) return;
116	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
117	if (v != NULL) {
118	FIO_TArray<T> fio(v);
119	fio.Write(pos, nom);
120	}
121	else {
122	FIO_TArray<T> fio(mMtx);
123	fio.Write(pos, nom);
124	}
125	}
126
127	/* --Methode-- */
128	template <class T>
129	void NOMAdapter_TMatrix<T>::Print(ostream& os)
130	{
131	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
132	if (v != NULL) os << (*v);
133	else os << (*mMtx);
134	}
135
136	/* --Methode-- */
137	template <class T>
138	PIDrawer* NOMAdapter_TMatrix<T>::GetDrawer(string & dopt)
139	{
140	TVector<T>* v = dynamic_cast<TVector<T> *>(mMtx);
141	if (v == NULL) return(NULL);
142	else {
143	dopt = "thinline," + dopt;
144	return( new PIYfXDrawer( new POTVectorAdapter<T>(v, false), NULL, true) );
145	}
146	}
147
148	/* --Methode-- */
149	template <class T>
150	P2DArrayAdapter* NOMAdapter_TMatrix<T>::Get2DArray(string &)
151	{
152	return ( new POTMatrixAdapter<T>(mMtx, false) );
153	}
154
155	/* --Methode-- */
156	template <class T>
157	NTupleInterface* NOMAdapter_TMatrix<T>::GetNTupleInterface(bool& adel)
158	{
159	adel = true;
160	return( new NTupInt_TMatrix<T>(mMtx) );
161	}
162
163
164	/* --Methode-- */
165	template <class T>
166	GeneralFitData* NOMAdapter_TMatrix<T>::GetGeneralFitData(bool& adel
167	,GeneralFitData::FitErrType errtype,double errscale,double errmin
168	,int i1,int i2,int j1,int j2)
169	{
170	adel = false;
171	if(!mMtx) return(NULL);
172
173	int nx,ny;
174	TVector<T>* vec = dynamic_cast<TVector<T> *>(mMtx);
175
176	if(vec) { // C'est un TVector
177	nx = vec->NElts();
178	ny = 1;
179	} else {
180	nx = mMtx->NRows();
181	ny = mMtx->NCol();
182	if(nx<=0 \|\| ny<=0) return(NULL);
183	}
184
185	i1 = (i1<0\|\|i1>=nx)? 0: i1;
186	i2 = (i2<0\|\|i2>=nx\|\|i2<i1)? nx-1: i2;
187	j1 = (j1<0\|\|j1>=ny)? 0: j1;
188	j2 = (j2<0\|\|j2>=ny\|\|j2<j1)? ny-1: j2;
189
190	GeneralFitData* mGData = NULL;
191
192	if(vec) { // C'est un TVector
193	mGData = new GeneralFitData(1,(i2-i1+1),0);
194	adel = true;
195	for(int i=i1;i<=i2;i++) {
196	double x = (double) i;
197	double f = (*vec)(i);
198	double e = 1.;
199	e = GeneralFitData::ComputeError(f,e,errtype,errscale,errmin);
200	mGData->AddData1(x,f,e);
201	}
202	} else {
203	mGData = new GeneralFitData(2,(i2-i1+1)*(j2-j1+1),0);
204	adel = true;
205	for(int i=i1;i<=i2;i++) for(int j=j1;j<=j2;j++) {
206	double x = (double) i;
207	double y = (double) j;
208	double f = (*mMtx)(i,j);
209	double e = 1.;
210	e = GeneralFitData::ComputeError(f,e,errtype,errscale,errmin);
211	mGData->AddData2(x,y,f,e);
212	}
213	}
214
215	return mGData;
216	}
217
218	template <class T>
219	AnyDataObj* NOMAdapter_TMatrix<T>::FitResidusObj(GeneralFit& mfit)
220	{
221	TVector<T>* vec = dynamic_cast<TVector<T> *>(mMtx);
222	if(vec) {
223	TVector<T>* v = new TVector<T>(ObjectFitter::FitResidus(*vec,mfit),true);
224	return v;
225	} else {
226	TMatrix<T>* m = new TMatrix<T>(ObjectFitter::FitResidus(*mMtx,mfit),true);
227	return m;
228	}
229	}
230
231	template <class T>
232	AnyDataObj* NOMAdapter_TMatrix<T>::FitFunctionObj(GeneralFit& mfit)
233	{
234	TVector<T>* vec = dynamic_cast<TVector<T> *>(mMtx);
235	if(vec) {
236	TVector<T>* v = new TVector<T>(ObjectFitter::FitFunction(*vec,mfit),true);
237	return v;
238	} else {
239	TMatrix<T>* m = new TMatrix<T>(ObjectFitter::FitFunction(*mMtx,mfit),true);
240	return m;
241	}
242	}
243
244	// ---- Specialisation pour complexes -----
245	GeneralFitData* NOMAdapter_TMatrix< complex<r_4> >::GetGeneralFitData(bool& adel
246	,GeneralFitData::FitErrType errtype,double errscale,double errmin
247	,int i1,int i2,int j1,int j2)
248	{
249	return(NULL);
250	}
251
252	AnyDataObj* NOMAdapter_TMatrix< complex<r_4> >::FitResidusObj(GeneralFit& mfit)
253	{
254	return(NULL);
255	}
256
257	AnyDataObj* NOMAdapter_TMatrix< complex<r_4> >::FitFunctionObj(GeneralFit& mfit)
258	{
259	return(NULL);
260	}
261
262	GeneralFitData* NOMAdapter_TMatrix< complex<r_8> >::GetGeneralFitData(bool& adel
263	,GeneralFitData::FitErrType errtype,double errscale,double errmin
264	,int i1,int i2,int j1,int j2)
265	{
266	return(NULL);
267	}
268
269	AnyDataObj* NOMAdapter_TMatrix< complex<r_8> >::FitResidusObj(GeneralFit& mfit)
270	{
271	return(NULL);
272	}
273
274	AnyDataObj* NOMAdapter_TMatrix< complex<r_8> >::FitFunctionObj(GeneralFit& mfit)
275	{
276	return(NULL);
277	}
278
279	// -------------------------------------------------------------
280
281	/* --Methode-- */
282	template <class T>
283	NTupInt_TMatrix<T>::NTupInt_TMatrix(TMatrix<T>* m)
284	{
285	mMtx = m;
286	}
287
288	/* --Methode-- */
289	template <class T>
290	NTupInt_TMatrix<T>::~NTupInt_TMatrix()
291	{
292	}
293
294	/* --Methode-- */
295	template <class T>
296	uint_4 NTupInt_TMatrix<T>::NbLines() const
297	{
298	return( mMtx->NRows()*mMtx->NCols() );
299	}
300
301	/* --Methode-- */
302	template <class T>
303	uint_4 NTupInt_TMatrix<T>::NbColumns() const
304	{
305	return(8);
306	}
307
308	/* --Methode-- */
309	template <class T>
310	r_8* NTupInt_TMatrix<T>::GetLineD(int n) const
311	{
312	int i,j;
313	if ((n < 0) \|\| (n >= (int)(mMtx->NRows()*mMtx->NCols()) )) {
314	mRet[0] = n;
315	for(i=1; i<8; i++) mRet[i] = 0.;
316	}
317	else {
318	i = n/mMtx->NCols(); j = n%mMtx->NCols();
319	mRet[0] = n; mRet[1] = i; mRet[2] = j;
320	mRet[3] = (*mMtx)(i,j);
321	mRet[4] = mRet[2]; mRet[5] = 0.;
322	mRet[6] = mRet[2]; mRet[7] = 0.;
323	}
324	return(mRet);
325	}
326
327	/* --Methode-- */
328	template <class T>
329	string NTupInt_TMatrix<T>::VarList_C(const char* nx) const
330	{
331	string nomx;
332	if (nx) nomx = nx;
333	else nomx = "_xh_";
334	string vardec = "double n,r,c,val,real,imag,mod,phas; \n";
335	vardec += "n = " + nomx + "[0]; r = " + nomx + "[1]; c = " + nomx + "[2]; \n";
336	vardec += "val = " + nomx + "[3]; \n";
337	vardec += "real = " + nomx + "[4]; imag = " + nomx + "[5]; \n";
338	vardec += "mod = " + nomx + "[6]; phas = " + nomx + "[7]; \n";
339	return(vardec);
340	}
341
342	/* --Methode-- */
343	r_8* NTupInt_TMatrix< complex<r_4> >::GetLineD(int n) const
344	{
345	int i,j;
346	if ((n < 0) \|\| (n >= (int)(mMtx->NRows()*mMtx->NCols()) )) {
347	mRet[0] = n;
348	for(i=1; i<8; i++) mRet[i] = 0.;
349	}
350	else {
351	i = n/mMtx->NCols(); j = n%mMtx->NCols();
352	mRet[0] = n; mRet[1] = i; mRet[2] = j;
353	mRet[4] = (mMtx)(i,j).real(); mRet[5] = (mMtx)(i,j).imag();
354	mRet[3] = mRet[6] = sqrt(mRet[4]mRet[4]+mRet[5]mRet[5]);
355	mRet[7] = atan2(mRet[5], mRet[4]);
356	}
357	return(mRet);
358	}
359
360	r_8* NTupInt_TMatrix< complex<r_8> >::GetLineD(int n) const
361	{
362	int i,j;
363	if ((n < 0) \|\| (n >= (int)(mMtx->NRows()*mMtx->NCols()) )) {
364	mRet[0] = n;
365	for(i=1; i<8; i++) mRet[i] = 0.;
366	}
367	else {
368	i = n/mMtx->NCols(); j = n%mMtx->NCols();
369	mRet[0] = n; mRet[1] = i; mRet[2] = j;
370	mRet[4] = (mMtx)(i,j).real(); mRet[5] = (mMtx)(i,j).imag();
371	mRet[3] = mRet[6] = sqrt(mRet[4]mRet[4]+mRet[5]mRet[5]);
372	mRet[7] = atan2(mRet[5], mRet[4]);
373	}
374	return(mRet);
375	}
376
377
378	#ifdef __CXX_PRAGMA_TEMPLATES__
379	//#pragma define_template NOMAdapter_TMatrix<uint_2>
380	//#pragma define_template NOMAdapter_TMatrix<int_2>
381	#pragma define_template NOMAdapter_TMatrix<int_4>
382	#pragma define_template NOMAdapter_TMatrix<r_4>
383	#pragma define_template NOMAdapter_TMatrix<r_8>
384	#pragma define_template NOMAdapter_TMatrix< complex<r_4> >
385	#pragma define_template NOMAdapter_TMatrix< complex<r_8> >
386	//#pragma define_template NTupInt_TMatrix<uint_2>
387	//#pragma define_template NTupInt_TMatrix<int_2>
388	#pragma define_template NTupInt_TMatrix<int_4>
389	#pragma define_template NTupInt_TMatrix<r_4>
390	#pragma define_template NTupInt_TMatrix<r_8>
391	#pragma define_template NTupInt_TMatrix< complex<r_4> >
392	#pragma define_template NTupInt_TMatrix< complex<r_8> >
393	#endif
394
395	#if defined(ANSI_TEMPLATES)
396	//template class NOMAdapter_TMatrix<uint_2>;
397	//template class NOMAdapter_TMatrix<int_2>;
398	template class NOMAdapter_TMatrix<int_4>;
399	template class NOMAdapter_TMatrix<r_4>;
400	template class NOMAdapter_TMatrix<r_8>;
401	template class NOMAdapter_TMatrix< complex<r_4> >;
402	template class NOMAdapter_TMatrix< complex<r_8> >;
403	// template class NTupInt_TMatrix<uint_2>;
404	// template class NTupInt_TMatrix<int_2>;
405	template class NTupInt_TMatrix<int_4>;
406	template class NTupInt_TMatrix<r_4>;
407	template class NTupInt_TMatrix<r_8>;
408	template class NTupInt_TMatrix< complex<r_4> >;
409	template class NTupInt_TMatrix< complex<r_8> >;
410	#endif

Note: See TracBrowser for help on using the repository browser.

Download in other formats: